Swinging chair with auto-reclining feature

ABSTRACT

A swinging chair comprises a frame portion and a seat portion designed to hang within the frame portion. The frame portion comprises a plurality of rigid segments, which are connected by a hub and from which is hung the chair seat portion. In one embodiment, the frame is comprised of multiple segments which can be taken apart for ease of storage and packing while the seat portion may be made of a soft, pliable cloth like material which is supported by a number of straps coupled to two buckles that fit over a knob or other protrusion in the upright seat support frame portion for providing and controlling automatic reclining of the chair seat back portion.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of U.S. patent application Ser. No. 15/879,612 filed Jan. 25, 2018 which in turn claims priority from U.S. Provisional Patent Application No. 62/450,267, titled “HANGING CHAIR”, which was filed on Jan. 25, 2017 both of which are incorporated fully herein by reference.

TECHNICAL FIELD

The present invention relates to chairs for use outdoors and indoors and more particularly, relates to a swinging chair, with an optional auto-reclining feature, made of a hard material such as wood or plastic or a lightweight material such as fabric or leather that hangs from and within a lightweight, freestanding frame, and wherein in one embodiment, the entire chair seat and frame can be folded or transformed into a compact package for use in outdoor camping, backpacking, beach and other outdoor or indoor activities where a transformable, compact and comfortable chair is desirable.

BACKGROUND INFORMATION

Campers, hikers, backpackers and others who pursue outdoor activities desire and enjoy the ability to sit down comfortably once they arrive at their final destination or at some intermediate point. Current folding or otherwise transforming chairs do not offer the swinging action or auto-reclining feature desired by users. Some current chairs are rocking chairs, but rocking is not well suited for use on the bumpy, uneven terrain typical of the outdoors and is a very different action and feeling from a hanging chair. In addition, users of chairs indoors or in a patio setting also desire and new sitting experience that is comfortable, enjoyable and adjustable.

Accordingly, what is needed is a portable swinging chair that can be set up on terrain typically found at camping sites or at the beach and providing a chair offering the experience of both upright sitting and reclining. Such a needed chair should interface with the ground by static legs similar to ordinary chairs while providing the dynamic action of swinging that happens between the frame and the hammock-like suspended chair portion, allowing the swinging to take place independent of the terrain. Further, this new solution should, if desired, be easy to disassemble or transform, be lightweight and pack small and the various legs and other frame pieces should be coupled together so as not to be lost.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other features and advantages of the present invention will be better understood by reading the following detailed description, taken together with the drawings wherein:

FIG. 1 is front photograph of the swinging chair according to the present invention;

FIG. 2A is a perspective view of the swinging chair frame according to one aspect of the invention;

FIG. 2B is a perspective view of an alternative embodiment of the swinging chair frame according to one aspect of the present invention;

FIG. 3 is a front view of the swinging chair frame according to the invention;

FIG. 4 is a side view of the swinging chair frame according to the invention.

FIGS. 5A-5E are perspective views of the swinging chair frame hub connector according to one feature of the present invention;

FIGS. 6A-6C are front, top and side perspective views of the swinging chair frame according to the invention;

FIGS. 7A and 7B our close-up views of the legs and upright support of the swinging chair frame according to one embodiment of the present invention illustrating extra tube wall thickness in selected locations;

FIG. 8 is a perspective view of the swinging chair support and reclining system in accordance with one feature of the present invention;

FIGS. 9A and 9B is a top view of the chair reclining mechanism strap lock according to one feature of the present invention;

FIGS. 10A-10B are close-up perspective views of the locking upright pole tip according to one feature of the present invention;

FIGS. 11A-11K are close-up perspective views of two embodiments of the chair reclining mechanism strap lock according to one feature of the present invention;

FIG. 12 is a view of one side of the auto reclining mechanism of the swinging chair according to the present invention;

FIG. 13 is a close-up view of the auto reclining mechanism pulley system of the swinging chair according to one embodiment of the present invention;

FIG. 14 is a perspective view of the reclining mechanism and pulley system of the auto reclining system of the present invention;

FIG. 15 is a side view of the auto reclining system and attachment to the armrest and the back rest of the swinging chair according to the present invention;

FIGS. 16A and 16B are front and rear views respectively of one embodiment of the back rest and headrest support system according to one feature of the present invention;

FIGS. 17A and 17B are side views of the back rest and headrest support according to one embodiment of the present invention;

FIGS. 18A-18E are perspective views of the swinging chair according to the present invention utilizing flat bars to support the headrest and back portion of the chair seat;

FIG. 19 is a perspective view of the swinging chair according to the present invention utilizing poles to support the headrest and back portion of the chair seat;

FIGS. 20A, 20B, 21A and 21B are perspective front and side views of high back and low back versions of the hanging chair in accordance with the present invention;

FIG. 22 is a cross-sectional view of a generally U-shaped crossbar in accordance with one feature of the present invention;

FIG. 23A is a perspective view of a chair frame in accordance with one feature of the present invention;

FIG. 23B is a perspective view of a chair frame pole tip in accordance with one feature of the present invention;

FIG. 23C is a detailed view of a knurled ferrule interconnecting two chair support members in accordance with yet another feature of the present invention;

FIGS. 24A and 24B are side and front views of another embodiment of the chair frame ground contacting end cap in accordance with another feature of the present invention;

FIG. 25 is a close-up cross-sectional view of a chair frame ground contacting end cap in accordance with a feature of the present invention;

FIGS. 26A and 26B are perspective views of an elastic backrest support in accordance with one feature of the present invention; and

FIGS. 27A, 27B, 28A, 28B, 29A and 29B are detailed views of a slider buckle in accordance with yet another feature of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The present invention features a swinging chair 10, FIG. 1, having a swinging seat portion 12. In one embodiment, the swinging seat portion 12 is made of a lightweight, pliable material such as woven or knit fabric, mesh, or leather. In another embodiment, the swinging seat portion 12 may be made of a more rigid, non-pliable material such as wood, plastic or composite material.

The seat portion 12 hangs from a lightweight and strong freestanding frame 14 (FIG. 2 for example) typically made of aluminum tubing having cross sectional widths in the range of 0.25 to 5.0 inches. The frame 14 is termed “rigid” however the frame 14 exhibits the properties of being free standing and able to support the weight of a person in the chair but is in fact also flexible to some extent, as is generally found in materials such as aluminum. The aluminum material may have a shape other than circular such as elliptical or square for example and generally has a wall thickness of approximately 0.05 to 0.5 inches. Other suitable materials such as metals, metal alloys, polymers, polymer composites, wood, ceramics or any combination thereof are contemplated and considered to be within the scope of the present invention.

The frame 14, FIG. 2, is, in one embodiment, preferably formed by seven (7) segments: a first three (3) segment portion 16 including one set of two legs (16 a and 16 b) and upright chair support member (16 c); and a second three (3) segment portion 18 forming a second set of two legs (18 a, 18 b) and upright chair support member 18 c. In another embodiment, in order to make the frame 14 more portable and packable, the upright chair support members 16 c and 18 c may each be provided as two interconnecting segments (16 c 1, 16 c 2, 18 c 1 and 18 c 2, FIG. 2A) to provide more portability and packability for the chair. Each individual segment 16 c 1/16 c 2 and 18 c 1/18 c 2 may be connected together to the corresponding adjacent segment by an elastic shock cord as is commonly found in tent frames. Each individual upright support member segment 16 c 1, 16 c 2, 18 c 1 and 18 c 2 may be roughly the same length to provide for easy packing.

In another embodiment of a less portable and non-packable chair, the frame 14 may not break down but may be formed of a welded steel or aluminum frame, molded carbon fiber or composite, or the like.

In one of the embodiments disclosed herein, the first three segments 16 are held together in place by a first “hub” 20, while the second three segments 18 are held together and in place by a second identical “hub” 22. A “crossbar” spacer segment 24 keeps the first and second hubs 20, 22 and accompanying segments 16/18 in a fixed relationship (i.e. a fixed distance) from one another.

Each “hub” 20/22 (shown in greater detail in FIGS. 5A-5E) are manufactured from metals, metal alloys, polymers, polymer composites, wood, ceramics or any composite material that can be used to fabricate the hubs 20/22, all considered to be within the knowledge of those skilled in the art and within the scope of the present invention.

The leg segments 16 a, 16 b and 18 a, 18 b are arranged by the hubs 20, 22 at an angle 26 in FIG. 3 of between 45 and 90 degrees (preferably 32 degrees) from a vertical axis 30 when viewed from the front or back (as in FIG. 3), while each pair of leg segments 16 a/16 b and 18 a/18 b are also arranged at an angle 42 FIG. 4 vis-à-vis one another in the range of 0 to 90 degrees (preferably approximately 54 degrees) from the vertical axis 44 when viewed from the side. The chair support segments 16 c and 18 c are arranged and maintained at an angle 28 in FIG. 3 of between 0 and 45 degrees from the vertical axis 30 (preferably approximately 20 degrees).

In one embodiment, spacer segment 24 is arranged essentially level horizontally. In another embodiment, spacer segment 24 may be curved as shown by dashed line 24 a in FIG. 3 (see also FIG. 22) so the height of the hub 20 can be increased and the crossbar segment 24 does not interfere with the bottom of the swinging seat 12.

It is contemplated that the swinging chair in accordance with the teachings of the present invention may be provided in 2 sizes. In the small size, the chair legs 16 a/16 b and 18 a/18 b have a length of approximately 11.4 inches while in the larger size, have a length of approximately 15 inches. The frame upright chair supports 16 c/18 c have a length of approximately 23.6 inches in the small size and 28 inches in the large size. In the small size, the crossbar segment 24 is approximately 18 inches in length while approximately 17 inches in length and the large size.

Chair components of the sizes (large and small) contemplated by the present invention provide a chair frame having approximately 34 inches of spacing for the small frame and 35.5 inches of spacing for the large frame between the 2 upright most portions of the frame 50 and 52 FIG. 6A; 26 inches between the bottoms of the chair frame feet where they contact the ground from a frontal perspective in the small size, FIG. 6B, and 28 inches between the bottoms of the chair frame feet in the large size.

The chair frame feet are preferably arranged approximately 19 inches apart at the base of the feet where they contact the ground from a side perspective for the small size, FIG. 6B, and 25 inches for the same components in the large size. The bottom portion of each of the legs 16 a-16 b and 18 a-18 b may include a nonslip foot 31 as shown in FIG. 8.

In one embodiment wherein the chair frame and or chair is packable or can collapse to make it more portable, the individual segments 16 a-c, 18 a-c and 24 are removed from the hubs 20, 22 and can be stored in a small bag or sleeve along with the hubs and potentially the chair seat for later assembly.

In another embodiment, the individual segments 16 a-16 c from one side of the frame 14, and segments 18 a-18 c from the other side of the frame 14 as well as spacer segment 24 may be held together by a standard shock cord run through the center of the segments as is well-known in the tent industry, in order to afford easy assembly and disassembly of the frame 14 and to prevent loss of the frame segments. In another embodiment of the present invention, the individual segments 16 a-c, 18 a-c and 24 could attach to hubs 20, 22 by hinging or swiveling elements, allowing the chair frame 14 to fold.

An additional feature of the preferred embodiment of the present invention includes reinforcement in strategic locations in one or more of the chair frame feet and upright segments. For example, in the leg segments 16 a and 18 a and 16 b and 18 b, FIG. 7A, approximately 4 inches (section 52) of that portion of the leg support that is inserted into the hub 20/22 may be reinforced with an additional piece of tubing 53 permanently located in the end region 52 where the leg segments enter the hub. Alternatively, the legs themselves may be made with a thicker wall thickness or diameter in the area of section 52 proximate the hub, tapering toward the feet 31 FIG. 8. These inserts and/or increased diameter or wall thickness in the legs help to strengthen the legs and help prevent their breakage or bending.

In somewhat similar fashion as shown in FIG. 7b , the upright supports 16 c/18 c may include a portion 54 having either an insert or an increased wall thickness to also help strengthen the uprights and help prevent breakage or bending. Use of these reinforcements may allow the use of lighter weight materials for the rest of the frame and a reduction of overall weight of the chair frame 14.

The swinging seat portion 12, FIGS. 1 and 8, may, in one embodiment, be made of a more rigid, non-pliable, non-collapsible material such as wood, plastic or composite material. In another embodiment, the swinging chair portion 12 may be made of a pliable, durable material such as woven or knit fabric, mesh or leather. The swinging seat portion 12 comprises a seat bottom region 32, and a seat back portion 34. Three nylon or similar straps or cordage 60, 62 and 64 are provided on each side of the swinging seat and serve to support and suspend the seat for the user.

One strap 60 a/b, preferably of fixed length, is attached proximate each front corner portion 36 a/b of each side of the seat bottom portion 32 to a front portion of each armrest 37; one strap 64 a/b is attached proximate each of the top corner regions 38 a/b of the seat back portion 34; while one set of straps 62 a/b is attached part-way down the seat back portion 34 to a rear portion of each armrest 37. The swinging seat portion 12 may also have built-in armrests 37 made of a rigid or semi-rigid structure enclosed in seat material.

In one embodiment, the straps 60, 62 and 64 (three from each side) come together at a metal locking plate system 42, 44 FIG. 9 (as will be explained in greater detail below) that have a hole and/or slot in the center of the metal locking plates. In this embodiment, there is a relatively short knob or protrusion 46, 48 FIGS. 9 and 10 at the top of each of the chair supports 16 c and 18 c over which the metal locking plate systems 42, 44 are placed, to support the swinging seat portion 12.

The metal locking plate system 42/44 is designed to lock the seat 12 into the frame 14 without using complex mechanisms, while ensuring that the user's weight prevents it from becoming unlocked during use. The metal locking plate system 42/44 is made up of 3 components: a locking pole tip 46/48 with an undercut 49 which are part of the frame 14; and two metal plates 68, 70 which are attached to the seat straps 69/71. The bottom metal plate 68 has a hole 72 for the pole tip 46/48 to fit through and, in one embodiment shown in FIG. 11E two parallel slots 74 a/b for webbing from the support straps 69/71 to weave through.

In another embodiment shown in FIG. 11F, slots 70 4C and 70 4D may be at an angle vis-à-vis one another in a similar angle as shown in the slots in the top plate 70 a. The top plate 70 has a keyhole 76 which is a cut out in the shape of 2 staggered circles of different diameters, as well as webbing slots 78 that are at an angle to each other. The plates 68 and 70 which make up the metal locking plate system 42, 44 can slide relative to each other to allow different alignments between the keyhole 76 and the hole 72 in the bottom plate.

To install the metal locking plate system 42, 44 on the pole tip 46/48, the top plate 70 must slide over and align the larger portion of the keyhole 76 with the bottom plate's hole 72. After installation, the top plate 70 will slide back over with the keyhole fitting into the undercut 49 of the pole tip 46/48. When the chair is weighted and the webbing tensioned, it is unreasonably difficult to align the plates for seat removal ensuring that the user's weight maintains the swinging chair 12 securely on the frame 14.

The straps 60, 62 and 64 are automatically adjustable to allow the user to adjust the swinging angle he or she is seated at as well as the angle between the back of the chair 34 and the bottom 32 allowing a user to adjust the chair 12 to provide nearly upright seating or a reclined lounge seating.

In another embodiment, the frame 14 may be provided without a protrusion for connecting to the metal locking plate system 42, 44. Instead, the seat 12 may include a reinforced “pocket” which slides over the top of the uprights 16 c, 18 c, to secure the chair seat 12 to the frame 14. In another embodiment, the seat 12 could have a short post or plug that inserts into a hollow and of the uprights 16 c, 18 c.

In one embodiment, the back portion 34 of the chair 12 is attached by a 2:1 pulley system 71, FIG. 12, on each side of the chair, which pulley system connects to the swinging points 46/48 of the swinging chair and back down to the back portion 72 of the armrests 37. The pulley system 71 is balancing the user's weight to the pressure they are applying to the backrest 34 with a 2:1 advantage for the backrest. A person sitting down in the chair can push back against the backrest 34 to recline. When the user sits up, the user's weight automatically brings the backrest back up behind them. Accordingly, the novel pulley system 71 of the present invention provides an auto-reclining feature to the chair of the present invention without utilizing springs, elastics, weights or other mechanisms to activate reclining of the back portion of the chair 34.

As shown in greater detail in FIG. 13, the pulley system 71 in accordance with one feature of the present invention includes a topmost pulley 75 and a bottom pulley 77. The topmost pulley 75 is commonly known or referred to as a strap adjuster or a triglide and may be made of metal or plastic, as appropriate and required. The second or bottom most pulley 77 is commonly known or referred to as a strap loop and may also be made of metal or plastic, or composite as appropriate and required.

The topmost pulley 75 includes a central region 77 to which is permanently fastened a first portion of strap 78 approximately 2.25 inches long which anchors the top pulley 75 a fixed distance from the frame anchor point 46/48. A second region 79 of the top pulley 75 provides a region through which a portion of strap 80 attached at one end to the frame anchor point 46, 48 of the respective side of the chair. Strap portion 80 begins from the frame anchor point 46/48, threads downward through the bottom pulley 77; upward through the second region 79 of the top pulley 75 and then subsequently attaches to the sides of the backrest 34 forming strap portion 64 previously described in connection with FIG. 12. The bottom pulley 77 is fixed by strap 82 to the rear of the arm rest 37 forming strap portion 62 previously described. The dashed lines show the path of the strap 80 through the top and bottom pulleys 75/77. Additional perspective views of the pulley system 71 are shown in FIGS. 14 and 15.

In another embodiment of the present invention, a deployable, foam padded headrest along with one or more headrest and chair back support elements may be provided. In one embodiment shown in FIGS. 16A and 16B, the backrest 34 may be provided with several flat aluminum bars 100 which serve to keep the shape of the back element upright and support a headrest 102.

In the preferred embodiment, four flat aluminum bars 104, FIG. 17 may be provided. In this embodiment, the aluminum bars may have pre-bends 105, 106 in them to generally match the shape of the user's back. The aluminum bars 104 provide lumbar support and support for the headrest 102.

In this embodiment, the top bars 104 a and 104 c are approximately 21 inches in length and the bottom bars 104 b and 104 d approximately 14 inches in length. The top and bottom bars overlap in a central region 106 and may be provided with a bend or custom bent by the user to achieve a comfortable fit in the area of the chair back 34. The top bars 104 a and 104 c are sewn into the seat except where they overlap with the lower bars enabling the top bars to pop off the lower bars to enabling folding of the seat back 34, FIG. 18.

In the preferred embodiment of the swinging chair with headrest and back support according to the present invention, a complete backrest 34 and headrest 102, FIG. 19 may be provided utilizing two poles 108 and 108 a. The two poles 108 are similar in style to tent poles running up the length of the backrest 34 to fully support the headrest 102. The poles 108 may be in one piece or preferably, each pole is in 2 segments of similar length connected by a shock cord, to allow them to disassemble for packing. The lower half of each poll 108 is fully inserted into a sleeve where it can stay when packed. The topmost tip of each upper half of each poll 108 is inserted into a small pocket near the headrest 102 to keep it located and securely attached to the headrest. The poles are tent style poles connected together with a shock cord allowing them to be folded for disassembly and storage yet stay connected together so as not to be lost. The top portion of the seat back or backrest 34 may include padding 110 to add additional support and stability to the back of the chair. The bottom portion 112 of the padded area aligns generally with the location of the poles segments which facilitates folding of the backrest for storage and packing. In one embodiment, the headrest 102 may be a pillow type device to provide more comfort and support for the user, as needed. The headrest 102 may be attached with hook and loop fasteners to the seat back 34 so it can be relocated, removed and/or adjusted as needed or desired by the user.

In a second embodiment, another feature of the present invention is a frame for a portable swinging or hanging chair that can be set up on terrain typically found at camping sites or at the beach, or even around the home on a patio or living room floor, and providing an improved frame for such a hanging and swinging portable chair that prevents the fabric of the hanging chair from hitting the bottom of the frame when at rest or when swinging. Such a frame interfaces with the ground by static legs similar to ordinary chairs while providing the dynamic action of swinging that happens between the frame and the hammock-like suspended chair portion, allowing the swinging to take place independent of the frame. Further, this new solution is easy to disassemble or transform, lightweight and packs small and the various legs and other frame pieces are or may be coupled together so as not to be lost.

As shown in FIGS. 22 and 23A one feature of the present invention is a crossbar 180 having a generally U-shaped configuration which provides clearance between a chair seat bottom (not shown) hanging on the chair frame and the top portion 182 of the crossbar 180.

Another feature of the present invention is to provide pole tips 184, FIG. 23B having a hole or opening 186 through which can be threaded an elastic cord (not shown) which serves to keep the legs together with no loss of any pieces. In a similar fashion, the bottom leg caps 188, FIG. 24, may also include a hole or opening 190 through which and elastic cord can be fastened. In this manner, all of the upright pieces in the leg pieces may be connected by shock cord to allow the chair or seat frame to pack into a small package while at the same time ensuring that none of the pieces become lost.

Another feature of the bottom leg caps 188 according to one feature of the present invention is their size or dimension. Since the bottom leg cap 188 is meant to be inserted into the aluminum tube of the lower leg 198, the outside diameter (OD) of the end cap 188 is intentionally made larger than the OD of the leg tube by approximately 0.8 mm. In this manner, the sharp edge 200 at the end of the aluminum tube 198 will grab onto the rubber end cap portion 202 of the end cap 188, thus preventing the end cap 188 from accidently falling off the end of the aluminum tube 198.

A further feature of the present invention is the provision of knurled ferrule 192, FIG. 23C between the top upright 194 and the bottom upright 196. The knurled ferrule 192 includes a knurled exterior surface and wherein the knurled ferrule 192 is provided for strength between the top and bottom upright members 194/196 while at the same time allowing the top and bottom uprights 194/194 to be disassembled for storage and packing.

Yet another feature of the present invention is the provision of an elastic in the back rest of a portable hanging and/or swinging chair as shown in FIGS. 26A and 26B. The elastic 104 is provided between an approximate midpoint on the seat back 100 and the corner of an armrest 102 as shown in FIG. 26B. The elastic member 104 may be provided having a knot 106 proximate its end and a metal washer 108 which prevents the knot from pulling through the material in which the elastic is held in place.

Another feature of the present invention includes a slider buckle which is utilized with a piece of webbing to bring 2 separate parts or pieces closer together or further part, and for carefully being able to regulate the speed and distance of this action. Any existing prior art buckle, often called a triglide or tribar buckle 130, FIG. 27A is often used to tighten the shoulder straps on the backpack for example. Such existing tension lock buckles work well for the tightening action but when loosening, the webbing slides quickly through with little or no control over the loosening motion.

In accordance with the present invention, the triglide or tribar buckle is modified to include 2 perpendicular attachment points 132, 134. See also FIG. 27B. This configuration allows careful control in both loosening and tightening applications. This is made possible by adding an additional webbing attachment 0.134, FIG. 28 that extends away from the main body. This new attachment 0.134 prevents the webbing sections from touching and having friction with each other. A short webbing loop 136 with a metal ring at the end acts as a handle. The new attachment 0.132 for the handle 136 is even further away from the body, creating a lever arm. When the handle is pushed or pulled it makes the entire buckle rotate. This rotation changes the contact area of the webbing woven through the buckle and reduces or increases friction. See FIGS. 29A and 29B. The buckle rotation, and therefore the friction on the webbing, can be modulated or controlled by the user pushing or pulling on the handle 136 with different amounts of force in a different direction. This change in friction, combined with the direction the handle is pushed or pulled in, will move the entire buckle and adjust the webbing system with ease and great control.

Accordingly, the present invention provides a novel, lightweight and portable, auto-reclining swinging chair frame and seat with an auto-recline feature that can easily be adjusted and which entire chair that can be easily packed and carried for use in outdoor or indoor settings.

Modifications and substitutions by one of ordinary skill in the art are considered to be within the scope of the present invention, which is not to be limited except by the allowed claims and their legal equivalents. 

1. A swinging chair, said swinging chair comprising: a frame; and a chair seat suspended within said frame from a top portion of said frame, and configured for swinging within said frame, said chair seat constructed of a lightweight, pliable material and including a chair seat bottom having a front portion and a rear portion and a chair seat back having a top portion and a bottom portion, wherein said rear portion of said chair seat bottom is coupled to said bottom portion of said chair seat back; said frame comprising: first and second chair seat support structures, each of said first and second chair seat support structures including two chair support legs and one chair support upright, said two chair support legs and one chair support upright of each of said first and second chair seat support structures coupled together by means of a hub; a chair support structure cross-bar, configured for attaching between said first and second hubs of said first and second chair seat support structures, for maintaining said first and second hubs in a predetermined spaced relationship, said chair support structure cross-bar having a generally u-shape; and a chair seat support mechanism, said chair seat support mechanism comprising a plurality of chair seat front and back flexible support straps, said plurality of chair seat front and back flexible support straps comprising: first and second chair seat front support strap members, said first chair seat front support strap member coupled to a first side of said lightweight and pliable chair seat bottom front portion, and said second chair seat front support strap member coupled to a second side of said lightweight and pliable chair seat bottom front portion; and first and second chair seat back support strap members, said first chair seat back support strap member coupled to a first side of said lightweight and pliable chair seat back top portion, and said second chair seat back support strap member coupled to a second side of said lightweight and pliable chair seat back top portion.
 2. The swinging chair according to claim 1, wherein said first and second front chair seat support strap members and said first and second chair seat back support strap members are made of a flexible and pliable material.
 3. The swinging chair according to claim 2, wherein said first front chair seat support strap member and said first chair seat back support strap member are coupled together, and wherein said second front chair seat support strap member and said second chair seat back support strap member are coupled together.
 4. The swinging chair according to claim 3, wherein one and of said first front chair seat support strap member and said first chair seat back support strap member are coupled together in a first coupling region, and wherein said first coupling region forms a pocket configured for being inserted over a topmost region of a first one of said chair support uprights, and wherein one end of said second front chair seat support strap member and said second chair seat back support strap member are coupled together in a second coupling region and wherein said second coupling region forms a pocket configured for being inserted over a topmost region of a second one of said chair support upright.
 5. The swinging chair according to claim 1, wherein said chair frame includes first and second chair support uprights, and wherein each of said chair support uprights are configured as two segments coupled together by an elastic cord member.
 6. The swinging chair according to claim 5, wherein said two segments of each of said first and second chair support uprights are coupled together by a knurled ferrule, and wherein each of said chair support uprights two segments are coupled together by an elastic cord member
 7. The swinging chair according to claim 6, wherein said chair support uprights of each of said first and second chair seat support structures include a protrusion on an uppermost end of each of said chair support uprights.
 8. The swinging chair according to claim 7, wherein said first front chair seat support strap member and said first chair seat back support strap member are coupled together in a first coupling region by a first metal coupling member, and wherein said first metal coupling member includes an opening configured for being inserted over said protrusion on an uppermost end of a first one of said chair support uprights, and wherein said second front chair seat support strap member and said second chair seat back support strap member are coupled together in a second coupling region by a second metal coupling member, and wherein said second metal coupling member includes an opening configured for being inserted over said protrusion on an uppermost end of a second one of said chair support uprights.
 9. The swinging chair according to claim 8, wherein said first chair seat back support strap member comprises first and second flexible seat back support strap elements, said first flexible seat back support strap element of said first chair seat back strap support member coupled proximate a first end directly to a top portion of a first side of said lightweight and pliable chair seat back, and said second flexible chair seat back support strap element of said first chair seat back support strap member coupled proximate a first end directly to a bottom portion of said lightweight and pliable chair seat back, and wherein a second end of said first flexible chair seat back support strap element and said second flexible chair seat back support strap element of said first seat back support member are coupled to said first metal coupling member, and wherein said second chair seat back support strap member comprises first and second flexible chair seat back support strap elements, said first flexible chair seat back support strap element of said second chair seat back support strap member coupled proximate a first end directly to a top portion of a second side of said lightweight and pliable chair seat back, and said second flexible chair seat back support element of said second chair seat back support strap member coupled proximate a first end directly to a bottom portion of said lightweight and pliable chair seat back, and wherein a second end of said first flexible chair seat back support strap element and said second flexible chair seat back support strap element of said second chair seat back support strap member are coupled to said second metal coupling member, and wherein said first and second metal coupling members allow said first and second flexible chair seat back support strap elements of each of said first and second chair seat back support strap members to be adjusted relative to one another causing an angle of the seat back to be adjusted vis-à-vis the lightweight and pliable chair seat bottom.
 10. The swinging chair of claim 9, wherein said second flexible chair seat back support strap element of said first chair seat back support strap member is coupled proximate said first end to a first end of a first arm rest coupled to said bottom portion of said chair seat back, and wherein said second flexible chair seat back support strap element of said second chair seat back support strap member is coupled proximate said first end to a first end of a second armrest to said bottom portion of said chair seat back, and wherein a first end of said first front chair seat support strap member is coupled to a second end of said first armrest and wherein a first end of said second front chair seat support strap member is coupled to a second end of said second armrest.
 11. The swinging chair of claim 1, wherein said chair seat back includes first and second vertically oriented support elements, configured for maintaining said chair seat back in a generally vertical and upright position.
 12. The swinging chair of claim 11, wherein said first and second vertically oriented support elements each comprise one vertically oriented support element.
 13. The swinging chair of claim 11, wherein said first and second vertically oriented support elements each comprise first and second vertically oriented support element segments.
 14. The swinging chair of claim 13, wherein said first and second vertically oriented support element segments of each of said first and second vertically oriented support elements are coupled together by an elastic cord.
 15. The swinging chair of claim 11, further including a pillow structure removably coupled proximate a top region of said chair seat back.
 16. The swinging chair of claim 1, wherein said first and second chair seat back support strap members each include slider buckle, said slider buckles configured for adjusting the length of said first and second chair back support strap members thereby adjusting the angle of said chair back vis-à-vis said chair seat bottom.
 17. The swinging chair of claim 1, wherein each of said two chair support legs of each of said first and second chair seat support structures include an end region configured for being disposed proximate a surface on which said swinging chair is to be used, wherein each of said two chair support legs of each of said first and second chair seat support structures include an opening having an outside diameter and an inside diameter, said swinging chair further including an end cap, configured for being disposed in each of said two chair support legs of each of said first and second chair seat support structures, said end caps each including a first portion configured for being inserted into the inside diameter of each of said two chair support legs of each of said first and second chair seat support structures, said end caps each including a second portion having a diameter which is greater than set outside diameter of said two chair support legs of each of said first and second chair seat support structures.
 18. The swinging chair of claim 17, wherein said second portion of each of said end caps is rubber.
 19. The swinging chair of claim 16, wherein said slider buckle includes a first generally planer portion including two openings separated by a slider buckle portion, and wherein said slider buckle includes a second generally planer portion perpendicular to said first generally planer portion and including two openings separated by said slider buckle portion disposed in said first generally planer portion.
 20. The swinging chair of claim 19, wherein said two openings in said first generally planer portion are configured for excepting a piece of webbing passing through a first one of said two openings, around said slider buckle portion and into said second opening, and wherein said second generally planer portion includes a first attachment point configured for attaching one end of said piece of webbing passing through said first generally planer portion of said slider buckle, and wherein said second generally planer portion includes a second attachment point configured for attaching to a handle configured for controlling when and how said piece of webbing passes through said first generally planer portion. 